VI SEM ECE SIMULATION PRACTICAL LAB MANUAL (Diploma L Scheme Lab Manual)
|
|
- Emmeline Merilyn Morrison
- 7 years ago
- Views:
Transcription
1 VI SEM ECE SIMULATION PRACTICAL LAB MANUAL (Diploma L Scheme Lab Manual) S.NO Name of the Experiment Page No. 1. Study of Simulation software using simple circuits. 2. Rectifier circuits ( Half wave, Full wave, Bridge rectifier with filters) 3. Power Supply design with regulators, LM7805, LM Waveform generator using BC147 Transistors ( Astable multivibrator ) 5. Waveform generator using BC147 Transistors ( Monostable Multivibrator ) 6. Clipper and Clambers. (Positive edge and Negative edge) 7. Op-Amp application-i. (Inverter amplifier, Integrated amplifier, difference amplifier) 8. Op-Amp applications-ii (Phase shift Oscillators, sine wave generator, square wave generator) 9. Instrumentation amplifiers. 10. AM Modulation and Demodulation 11. FM Modulation and Demodulation 12. ASK Modulation and Demodulation 13. FSK Modulation and Demodulation 14. PSK Modulation and Demodulation 15. Single side PCB layout Design using CAD Tool. Drawing the schematic of simple electronic circuit and design of PCB layout using CAD Tool 16. Multilayer PCB Layout design using CAD Tool.
2 EPERIMENT: 1. Study of Simulation software features using simple circuits. To design and verify the results of various electronic circuits using SIMULATION Software and verify the result in the computer AIM: To understand the design and simulation environment of simulation software, and also study the various features of simulation through the design and simulation of common emitter amplifier. SIMULATION PROCEDUTE: Open MULTISIM Software. Click=> New => Design1 Click save as in Desk Top rename the Design1 to your circuit name. Go to Component tool bar and select the components. Draw the common emitter amplifier using the components that are available in the tool bar and then save the circuit. Set the Function Generator F = 1 khz V= 200mV. Click simulate button or press F5 key => RUN Then double click connected in the output of the Oscilloscope and measure input and output waveforms. Then Change input Frequency again measure Take printout the output waveforms. Results: The common emitter amplifier circuit is designed, simulated and analyzed through the output wave forms.
3 EPERIMENT: 2. Rectifier circuits (Half wave, full wave, Bridge rectifiers with filters). AIM: To design and simulate the input and output characters of a half wave, Full wave and Bridge rectifiers with and without filters. Half-wave Rectifier. Full wave rectifier with center tapped transformer.
4 Bridge Rectifier Circuit. SIMULATION PROCEDUTE: Open MULTISIM Software. Click=> New => Design1 Click save as in Desk Top rename the Design1 to your circuit name. Go to Component tool bar and select the components. Draw the above circuits using the components that are available in the tool bar and then save the circuit. Double click AC_POWER set its value above mentioned. Click simulate button or press F5 key => RUN Then double click connected in the output of the Oscilloscope and measure input and output waveforms. Then Change input Frequency and voltage, again measure and print the output waveforms. Results: The Half wave, Full wave and bridge rectifier circuits are designed, simulated and verified through the output wave forms.
5 EPERIMENT:3. Power Supply Design with Regulators. AIM: To design the power supply circuit using a fixed voltage (7805, and 7812). SIMULATION PROCEDURE: Open MULTISIM Software. Click=> New => Design1 Click save as in Desk Top rename the Design1 to your circuit name. Go to Component tool bar and select the components. Draw the schematic diagram of the above circuit with fixed voltage regulator. Double click Ac_power set its value above mentioned. Click simulate button or press F5 key => RUN Measure the Input and output of the regulator voltage with oscilloscope. Print the CRO waveforms. RESULT: The regulated power supply is designed and tested with simulation software.
6 EPERIMENT: 4. Waveform generators using transistors. ( Astable multivibrator ) AIM: To design the astable multivibrator using transistor and also verify its output. SUMULATION PROCEDURE: Open MULTISIM Software. Click=> New => Design1 Click save as in Desk Top rename the Design1 to your circuit name. Go to Component tool bar and select the components. Draw the circuit diagram of astable multivibator using BC147 transistor. Connect the CRO above mentioned circuit. Click simulate button or press F5 key => RUN Note down the Time period and calculate the frequencies. Record the output waveforms. RESULT: The astable multivibrator is designed and its output is verified using MULTISIM software. Calculate the time period: R=82k, and C=150nF and F=
7 EPERIMENT: 5. Monostable Multivibrator. AIM: To design the Monostable circuit using BC147B Transistor and verify the its output. SIMULATION PROCEDURE: Open MULTISIM Software. Click=> New => Design1 Click save as in Desk Top rename the Design1 to your circuit name. Go to Component tool bar and select the components. Draw the schematic diagram of astable multivibator using transistors as shown. Click simulate button or press F5 key => RUN. Close the switch measure the waveforms. Open the switch measure the waveforms. Measure the voltage level of Q1, Q2 collector of the transistors. Use the digital CRO from the menu. Note down the Time period and calculate the Frequencies. Take printout the output waveforms. RESULT: The Monostable circuit using BC147B Transistor designed and verified with the simulation software. Calculate the Time period: R=12oK. C=4.7 Mfd F=
8 EPERIMENT: 6. Clippers and Clampers. AIM: To design and verify the operation of clipper and clamper circuits using simulation software. Two way parallel clipper with reference voltage. Set Frequency range: F=10 Khz and 10V. Positive Clamber.
9 Negative Clamber SIMULATION PROCEDURE: Open MULTISIM Software. Click=> New => Design1 Click save as in Desk Top rename the Design1 to your circuit name. Go to Component tool bar and select the components. Draw the circuit of clipper and clamber as shown above. Set the input Sine wave frequency of 10 KHz to input and voltage =10V. Click simulate button or press F5 key => RUN Measure the input and output wave with CRO. Note down the input and output voltage and waveforms. Take printout. Result: The clipper and clamber circuits are designed and verified.
10 EPERIMENT: 7. Op-Amplifier applications. AIM: To design and verify Inverting amplifier, Differentiator, and Integrator circuits. Integrator circuit: Differentiator circuit.
11 Inverting Amplifier. SIMULATION PROCEDURE: Open MULTISIM Software. Click=> New => Design1 Click save as in Desk Top rename the Design1 to your circuit name. Go to Component tool bar and select the components. Draw the schematic of all above mentioned circuit and its same value. Set the Square wave to the input and its voltage is 5v and F=1 khz and set Frequency to inverter F= 400 Hz. Click simulate button or press F5 key => RUN Double click the CRO. Measure the input and output voltage and frequencies. Take Print to record note. RESULT: The design of Inverting, integrated and differential amplifier was simulated and verified.
12 EPERIMENT: 8. Op-Amp applications-ii. AIM: To draw Op-amp application circuits ( Hartley and Phase shift Oscillators, Sine wave Generator) and verify the Input and output voltage Frequencies. Phase Shift Oscillator: Hartley Oscillator
13 Sine wave Oscillator. SIMULATION PROCEDURE: Open MULTISIM Software. Click=> New => Design1 Click save as in Desk Top rename the Design1 to your circuit name. Go to Component tool bar and select the components. Draw the schematic of op amp application circuits as shown. Select the proper resistance values to achieve the desired gain. Click simulate button or press F5 key => RUN. Double click the oscilloscope. Take printout. RESULT: Thus Op-amp application circuits, Hartley and Phase shift Oscillators, Sine wave Generator are designed and verified the outputs.
14 EPERIMENT: 9. Instrumentation Amplifier. AIM: To design, analyze and simulate the input and output characteristics of an instrumentation amplifier. SIMULATION PROCEDURRE: Open MULTISIM Software. Click=> New => Design1 Click save as in Desk Top rename the Design1 to your circuit name. Go to Component tool bar and select the components. Draw the schematic of instrumentation amplifier as shown. The desired magnitude are defied for V1=3v, V=5v. Click simulate button or press F5 key => RUN Measure the input and output waveforms. Take printout to record. RESULT: The Instrumentation amplifier is designed simulated and the input and output waveforms are noted.
15 EPERIMENT: 10. AM Modulation and Demodulation using single BC107 Transistor. AIM: To design and verify the characteristics of AM modulator and Demodulator using simulation software. MODEL WAVEFORMS
16 DEMODULATION SIMULATION PROCEDURE: Open MULTISIM Software. Click=> New => Design1 Click save as in Desk Top rename the Design1 to your circuit name. Go to Component tool bar and select the components. Draw the schematic of amplitude modulator and demodulator as shown. Specify the values of amplitude and frequency for the carrier signal. Carrier Signal: XFG1 F= 400 Khz / 10v, Modulating signal XFG2 F= 20khz / 5v. Design the low pass filter. Calculate the modulation index and note the readings. Record the output. RESULT: The design of amplitude modulator and demodulator was done with simulation software and also the signals is retrieved from the modulated single with the modulation index.
17 EPERIMENT: 11. FM Modulation and Demodulation. AIM: To Design and verify the characteristics of FM modulator and demodulator using MULTISIM.
18 SIMULATION PROCEDURE: Open MULTISIM Software. Click=> New => Design1 Click save as in Desk Top rename the Design1 to your circuit name. Go to Component tool bar and select the components. Draw the schematic of frequency modulator and demodulator as shown. Specify the values of amplitude and frequency for the given. Modulating signal F= 10 Khz / 4v. Select the proper values of resistances and capacitors used in the same. Design low pass filter for the demodulation circuit. RESULT: The design of Frequency modulator and demodulator was done using multisim software and also the message signal is retrieved from the modulated signal with the modulation index, mf=
19 EPERIMENT: 12. ASK Modulation and Demodulation. AIM: To design and verify the characteristics of Amplitude Shift Keying Modulation and Demodulation using MULTISIM software. APPARATUS REQUIRED: PC loaded with MULTISIM software ASK Modulation using NPN Transistor. ASK Demodulation SIMULATION PROCEDURE. Open MULTISIM Software. Click=> New => Design1 Click save as in Desk Top rename the Design1 to your circuit name. Go to Component tool bar and select the components. Draw the schematic of Amplitude Shift Keying modulator and demodulator as shown. Specify the values of amplitude and frequency for the same to carrier and modulating signals. XFG1: Square wave F=300H/V= 10, XFG2=SINE wave F=5 Khz/V=10. Design the comparator circuit using op-amp to restore the modulating signal. Record the output. RESULTS: Thus design of amplitude shift keying modulator and demodulator was completed and its output is verified.
20 EPERIMENT: 13. FSK Modulation and Demodulation. AIM: To design and verify the characteristics of frequency shift keying modulation and demodulation. FSK Modulation circuit. FSK Demodulation
21 SIMULATION PROCEDURE. Open MULTISIM Software. Click=> New => Design1 Click save as in Desk Top rename the Design1 to your circuit name. Go to Component tool bar and select the components. Draw the schematic of frequency shift keying modulator and demodulator as shown. XFG1 F=150 H, XFG2 F= 200 Hz, and XFG F =2KHz Specify the value of amplitude and frequency for the same value below mentioned. Click simulate button or press F5 key => RUN Design the comparator circuit using op-amp to restore the modulating signal. Record the waveforms. RESULT: Thus the design of Frequency shift keying modulator and demodulator was completed and its output is verified by the frequency deviation and modulation index using simulation software.
22 EPERIMENT: 14. PSK Modulation and Demodulation. AIM: To design and verify the characteristics of Phase shift keying Modulation and Demodulation. SIMULATION PROCEDURE. Open MULTISIM Software. Click=> New => Design1 Click save as in Desk Top rename the Design1 to your circuit name. Go to Component tool bar and select the components. Draw the Schematic of Frequency shift keying modulator and demodulator as shown. Specify the values of Amplitude and frequency for the same values of the input signals. Set frequency of XFG1= 600 H / 12v, XFG2= 2 KHz/10v. Design the comparator circuit using op-amp to restore the modulating signal. Record the output waveforms. RESULT: Thus the design of phase shift keying modulator and demodulator was completed and its output is verified.
23 EPERIMENT: 15. Single side PCB Layout Design using CAD Tool. AIM: To design the single sided PCB for a simple electronic circuit (LED Running light) with MULTISIM. PROCEDURE: Open MULTISIM Software. Click=> New => Design1 Click save as in Desk Top rename the Design1 to your circuit name. Go to Component tool bar and select the components. Single side PCB. RESULT: Thus the design of a single sided PCB for simple electronic circuit with MULTISIM software CAD tool was done.
24 EPERIMENT:16.. Multilayer PCB Layout Design using CAD Tool. AIM: To design multilayer PCB Layout for a circuit (Tester for remote control). Open MULTISIM Software. Click=> New => Design1 Click save as in Desk Top rename the Design1 to your circuit name. Go to Component tool bar and select the components. RESULT: Thus Design of multilayer PCB layout for a circuit (Tester for remote control ) using CAD Tool was completed. M.K Subramanian/ECE/SPC For more details:
Experiment # (4) AM Demodulator
Islamic University of Gaza Faculty of Engineering Electrical Department Experiment # (4) AM Demodulator Communications Engineering I (Lab.) Prepared by: Eng. Omar A. Qarmout Eng. Mohammed K. Abu Foul Experiment
More informationOperating Manual Ver.1.1
Class B Amplifier (Push-Pull Emitter Follower) Operating Manual Ver.1.1 An ISO 9001 : 2000 company 94-101, Electronic Complex Pardesipura, Indore- 452010, India Tel : 91-731- 2570301/02, 4211100 Fax: 91-731-
More informationPulse Width Modulation (PWM) LED Dimmer Circuit. Using a 555 Timer Chip
Pulse Width Modulation (PWM) LED Dimmer Circuit Using a 555 Timer Chip Goals of Experiment Demonstrate the operation of a simple PWM circuit that can be used to adjust the intensity of a green LED by varying
More informationLABORATORY 2 THE DIFFERENTIAL AMPLIFIER
LABORATORY 2 THE DIFFERENTIAL AMPLIFIER OBJECTIVES 1. To understand how to amplify weak (small) signals in the presence of noise. 1. To understand how a differential amplifier rejects noise and common
More informationElectronics. Discrete assembly of an operational amplifier as a transistor circuit. LD Physics Leaflets P4.2.1.1
Electronics Operational Amplifier Internal design of an operational amplifier LD Physics Leaflets Discrete assembly of an operational amplifier as a transistor circuit P4.2.1.1 Objects of the experiment
More informationOperational Amplifier as mono stable multi vibrator
Page 1 of 5 Operational Amplifier as mono stable multi vibrator Aim :- To construct a monostable multivibrator using operational amplifier 741 and to determine the duration of the output pulse generated
More informationLaboratory 4: Feedback and Compensation
Laboratory 4: Feedback and Compensation To be performed during Week 9 (Oct. 20-24) and Week 10 (Oct. 27-31) Due Week 11 (Nov. 3-7) 1 Pre-Lab This Pre-Lab should be completed before attending your regular
More information6.101 Final Project Proposal Class G Audio Amplifier. Mark Spatz
6.101 Final Project Proposal Class G Audio Amplifier Mark Spatz 1 1 Introduction For my final project, I will be constructing a 30V audio amplifier capable of delivering about 150 watts into a network
More informationBasic Op Amp Circuits
Basic Op Amp ircuits Manuel Toledo INEL 5205 Instrumentation August 3, 2008 Introduction The operational amplifier (op amp or OA for short) is perhaps the most important building block for the design of
More informationelectronics fundamentals
electronics fundamentals circuits, devices, and applications THOMAS L. FLOYD DAVID M. BUCHLA Lesson 1: Diodes and Applications Center-Tapped Full-wave Rectifier The center-tapped (CT) full-wave rectifier
More informationLow Cost Pure Sine Wave Solar Inverter Circuit
Low Cost Pure Sine Wave Solar Inverter Circuit Final Report Members: Cameron DeAngelis and Luv Rasania Professor: Yicheng Lu Advisor: Rui Li Background Information: Recent rises in electrical energy costs
More informationTransistor Characteristics and Single Transistor Amplifier Sept. 8, 1997
Physics 623 Transistor Characteristics and Single Transistor Amplifier Sept. 8, 1997 1 Purpose To measure and understand the common emitter transistor characteristic curves. To use the base current gain
More informationTransistor Amplifiers
Physics 3330 Experiment #7 Fall 1999 Transistor Amplifiers Purpose The aim of this experiment is to develop a bipolar transistor amplifier with a voltage gain of minus 25. The amplifier must accept input
More informationFrequency Response of Filters
School of Engineering Department of Electrical and Computer Engineering 332:224 Principles of Electrical Engineering II Laboratory Experiment 2 Frequency Response of Filters 1 Introduction Objectives To
More informationOPERATIONAL AMPLIFIERS. o/p
OPERATIONAL AMPLIFIERS 1. If the input to the circuit of figure is a sine wave the output will be i/p o/p a. A half wave rectified sine wave b. A fullwave rectified sine wave c. A triangular wave d. A
More informationUnit/Standard Number. High School Graduation Years 2010, 2011 and 2012
1 Secondary Task List 100 SAFETY 101 Demonstrate an understanding of State and School safety regulations. 102 Practice safety techniques for electronics work. 103 Demonstrate an understanding of proper
More informationLM 358 Op Amp. If you have small signals and need a more useful reading we could amplify it using the op amp, this is commonly used in sensors.
LM 358 Op Amp S k i l l L e v e l : I n t e r m e d i a t e OVERVIEW The LM 358 is a duel single supply operational amplifier. As it is a single supply it eliminates the need for a duel power supply, thus
More informationLab Unit 4: Oscillators, Timing and the Phase Locked Loop
Chemistry 8 University of WisconsinMadison Lab Unit : Oscillators, Timing and the Phase Locked Loop Oscillators and timing circuits are very widely used in electronic measurement instrumentation. In this
More informationPhysics 120 Lab 6: Field Effect Transistors - Ohmic region
Physics 120 Lab 6: Field Effect Transistors - Ohmic region The FET can be used in two extreme ways. One is as a voltage controlled resistance, in the so called "Ohmic" region, for which V DS < V GS - V
More informationOperational Amplifier - IC 741
Operational Amplifier - IC 741 Tabish December 2005 Aim: To study the working of an 741 operational amplifier by conducting the following experiments: (a) Input bias current measurement (b) Input offset
More informationARRL Morse Code Oscillator, How It Works By: Mark Spencer, WA8SME
The national association for AMATEUR RADIO ARRL Morse Code Oscillator, How It Works By: Mark Spencer, WA8SME This supplement is intended for use with the ARRL Morse Code Oscillator kit, sold separately.
More informationDIODE CIRCUITS LABORATORY. Fig. 8.1a Fig 8.1b
DIODE CIRCUITS LABORATORY A solid state diode consists of a junction of either dissimilar semiconductors (pn junction diode) or a metal and a semiconductor (Schottky barrier diode). Regardless of the type,
More informationANADOLU UNIVERSITY DEPARTMENT OF ELECTRICAL AND ELECTRONICS ENGINEERING
ANADOLU UNIVERSITY DEPARTMENT OF ELECTRICAL AND ELECTRONICS ENGINEERING EEM 102 INTRODUCTION TO ELECTRICAL ENGINEERING EXPERIMENT 9: DIODES AND DC POWER SUPPLY OBJECTIVE: To observe how a diode functions
More informationBipolar Transistor Amplifiers
Physics 3330 Experiment #7 Fall 2005 Bipolar Transistor Amplifiers Purpose The aim of this experiment is to construct a bipolar transistor amplifier with a voltage gain of minus 25. The amplifier must
More informationPhysics 623 Transistor Characteristics and Single Transistor Amplifier Sept. 13, 2006
Physics 623 Transistor Characteristics and Single Transistor Amplifier Sept. 13, 2006 1 Purpose To measure and understand the common emitter transistor characteristic curves. To use the base current gain
More informationA Digital Timer Implementation using 7 Segment Displays
A Digital Timer Implementation using 7 Segment Displays Group Members: Tiffany Sham u2548168 Michael Couchman u4111670 Simon Oseineks u2566139 Caitlyn Young u4233209 Subject: ENGN3227 - Analogue Electronics
More informationDiode Applications. by Kenneth A. Kuhn Sept. 1, 2008. This note illustrates some common applications of diodes.
by Kenneth A. Kuhn Sept. 1, 2008 This note illustrates some common applications of diodes. Power supply applications A common application for diodes is converting AC to DC. Although half-wave rectification
More informationPrecision Diode Rectifiers
by Kenneth A. Kuhn March 21, 2013 Precision half-wave rectifiers An operational amplifier can be used to linearize a non-linear function such as the transfer function of a semiconductor diode. The classic
More informationThe full wave rectifier consists of two diodes and a resister as shown in Figure
The Full-Wave Rectifier The full wave rectifier consists of two diodes and a resister as shown in Figure The transformer has a centre-tapped secondary winding. This secondary winding has a lead attached
More informationHandheld measurement equipment for measuring extremely low frequency electromagnetic fields
Handheld measurement equipment for measuring extremely low frequency electromagnetic fields Intermediate Report S u b m i t t e d b y A s h u t o s h B a h e t i, N e h a B a h e t i, S h i l p a S a r
More informationCHAPTER 2B: DIODE AND APPLICATIONS. D.Wilcher
CHAPTER 2B: DIODE AND APPLICATIONS D.Wilcher 1 CHAPTER 2B: OBJECTIVES Analyze the operation of 3 basic types of rectifiers Describe the operation of rectifier filters and IC regulators Analyze the operation
More informationDiode Applications. As we have already seen the diode can act as a switch Forward biased or reverse biased - On or Off.
Diode Applications Diode Switching As we have already seen the diode can act as a switch Forward biased or reverse biased - On or Off. Voltage Rectifier A voltage rectifier is a circuit that converts an
More informationEXPERIMENT NUMBER 5 BASIC OSCILLOSCOPE OPERATIONS
1 EXPERIMENT NUMBER 5 BASIC OSCILLOSCOPE OPERATIONS The oscilloscope is the most versatile and most important tool in this lab and is probably the best tool an electrical engineer uses. This outline guides
More informationLM1596 LM1496 Balanced Modulator-Demodulator
LM1596 LM1496 Balanced Modulator-Demodulator General Description The LM1596 LM1496 are doubled balanced modulator-demodulators which produce an output voltage proportional to the product of an input (signal)
More informationLocal Oscillator for FM broadcast band 88-108 MHz
Local Oscillator for FM broadcast band 88-108 MHz Wang Luhao Yan Shubo Supervisor: Göran Jönsson Department of Electrical and Information Technology Lund University 2012.05.15 Abstract In this project
More informationLABORATORY 10 TIME AVERAGES, RMS VALUES AND THE BRIDGE RECTIFIER. Bridge Rectifier
LABORATORY 10 TIME AVERAGES, RMS VALUES AND THE BRIDGE RECTIFIER Full-wave Rectification: Bridge Rectifier For many electronic circuits, DC supply voltages are required but only AC voltages are available.
More informationReading: HH Sections 4.11 4.13, 4.19 4.20 (pgs. 189-212, 222 224)
6 OP AMPS II 6 Op Amps II In the previous lab, you explored several applications of op amps. In this exercise, you will look at some of their limitations. You will also examine the op amp integrator and
More informationLab #9: AC Steady State Analysis
Theory & Introduction Lab #9: AC Steady State Analysis Goals for Lab #9 The main goal for lab 9 is to make the students familar with AC steady state analysis, db scale and the NI ELVIS frequency analyzer.
More informationLINEAR INTEGRATED-CIRCUIT FUNCTION GENERATOR
~. c EXPERIMENT 9 Name: LINEAR INTEGRATED-CIRCUIT FUNCTION GENERATOR OBJECTIVES: INTRODUCTION: 1. To observe the operation of a linear integrated-circuit function generator. 2. To observe the frequency-versus-timing
More information6.101 Final Project Report Class G Audio Amplifier
6.101 Final Project Report Class G Audio Amplifier Mark Spatz 4/3/2014 1 1 Introduction For my final project, I designed and built a 150 Watt audio amplifier to replace the underpowered and unreliable
More informationTESTS OF 1 MHZ SIGNAL SOURCE FOR SPECTRUM ANALYZER CALIBRATION 7/8/08 Sam Wetterlin
TESTS OF 1 MHZ SIGNAL SOURCE FOR SPECTRUM ANALYZER CALIBRATION 7/8/08 Sam Wetterlin (Updated 7/19/08 to delete sine wave output) I constructed the 1 MHz square wave generator shown in the Appendix. This
More informationMATERIALS. Multisim screen shots sent to TA.
Page 1/8 Revision 0 9-Jun-10 OBJECTIVES Learn new Multisim components and instruments. Conduct a Multisim transient analysis. Gain proficiency in the function generator and oscilloscope. MATERIALS Multisim
More informationLab 7: Operational Amplifiers Part I
Lab 7: Operational Amplifiers Part I Objectives The objective of this lab is to study operational amplifier (op amp) and its applications. We will be simulating and building some basic op amp circuits,
More information1. Learn about the 555 timer integrated circuit and applications 2. Apply the 555 timer to build an infrared (IR) transmitter and receiver
Electronics Exercise 2: The 555 Timer and its Applications Mechatronics Instructional Laboratory Woodruff School of Mechanical Engineering Georgia Institute of Technology Lab Director: I. Charles Ume,
More informationQUESTION BANK FOR. S. Y. B. Sc. ELECTRONICS
SCIENCE FACULTY NORTH MAHARASHTRA UNIVERSITY, JALGAON QUESTION BANK FOR S. Y. B. Sc. ELECTRONICS (With effect from June, 28) 2 Board of Studies in Electronics Board of Studies in Electronics, in its meeting
More informationENEE 307 Electronic Circuit Design Laboratory Spring 2012. A. Iliadis Electrical Engineering Department University of Maryland College Park MD 20742
1.1. Differential Amplifiers ENEE 307 Electronic Circuit Design Laboratory Spring 2012 A. Iliadis Electrical Engineering Department University of Maryland College Park MD 20742 Differential Amplifiers
More informationFREQUENCY RESPONSE OF AN AUDIO AMPLIFIER
2014 Amplifier - 1 FREQUENCY RESPONSE OF AN AUDIO AMPLIFIER The objectives of this experiment are: To understand the concept of HI-FI audio equipment To generate a frequency response curve for an audio
More informationInductors in AC Circuits
Inductors in AC Circuits Name Section Resistors, inductors, and capacitors all have the effect of modifying the size of the current in an AC circuit and the time at which the current reaches its maximum
More informationOp-Amp Simulation EE/CS 5720/6720. Read Chapter 5 in Johns & Martin before you begin this assignment.
Op-Amp Simulation EE/CS 5720/6720 Read Chapter 5 in Johns & Martin before you begin this assignment. This assignment will take you through the simulation and basic characterization of a simple operational
More informationSIMPLE HEART RATE MONITOR FOR ANALOG ENTHUSIASTS
SIMPLE HEART RATE MONITOR FOR ANALOG ENTHUSIASTS Jelimo B Maswan, Abigail C Rice 6.101: Final Project Report Date: 5/15/2014 1 Project Motivation Heart Rate Monitors are quickly becoming ubiquitous in
More informationThe Ultimate British Valve Tester
TEST EQUIPMENT The Ultimate British Valve Tester AVO VCM 163 by Kurt Schmid, DH3PJ To evaluate the quality of thermionic valves, ambitious valve testers (USA: tube tester) are able to diagnose a couple
More informationMassachusetts Institute of Technology Department of Electrical Engineering and Computer Science. 6.002 Electronic Circuits Spring 2007
Massachusetts Institute of Technology Department of Electrical Engineering and Computer Science 6.002 Electronic Circuits Spring 2007 Lab 4: Audio Playback System Introduction In this lab, you will construct,
More informationAB07 Common Collector PNP Transistor Characteristics. Analog lab Experiment board. Ver 1.0
Common Collector PNP Transistor Characteristics Analog lab Experiment board Ver 1.0 QUALITY POLICY To be a Global Provider of Innovative and Affordable Electronic Equipments for Technology Training by
More informationLab 5 Operational Amplifiers
Lab 5 Operational Amplifiers By: Gary A. Ybarra Christopher E. Cramer Duke University Department of Electrical and Computer Engineering Durham, NC. Purpose The purpose of this lab is to examine the properties
More informationStudy Guide for the Electronics Technician Pre-Employment Examination
Bay Area Rapid Transit District Study Guide for the Electronics Technician Pre-Employment Examination INTRODUCTION The Bay Area Rapid Transit (BART) District makes extensive use of electronics technology
More informationGenTech Practice Questions
GenTech Practice Questions Basic Electronics Test: This test will assess your knowledge of and ability to apply the principles of Basic Electronics. This test is comprised of 90 questions in the following
More informationHomework Assignment 03
Question 1 (2 points each unless noted otherwise) Homework Assignment 03 1. A 9-V dc power supply generates 10 W in a resistor. What peak-to-peak amplitude should an ac source have to generate the same
More informationEXPERIMENT NUMBER 8 CAPACITOR CURRENT-VOLTAGE RELATIONSHIP
1 EXPERIMENT NUMBER 8 CAPACITOR CURRENT-VOLTAGE RELATIONSHIP Purpose: To demonstrate the relationship between the voltage and current of a capacitor. Theory: A capacitor is a linear circuit element whose
More informationIgnition Alert Anti-Theft Security System for Motorbikes with Remote Control Amit Yadav, Anushri Jha, Neelesh Gupta amitrinku007@yahoo.
Ignition Alert Anti-Theft Security System for Motorbikes with Remote Control Amit Yadav, Anushri Jha, Neelesh Gupta amitrinku007@yahoo.com Abstract There are many vehicle security system are available
More informationOperating Manual Ver.1.1
Silicon, Zener, LED Diode Characteristics Operating Manual Ver.1.1 An ISO 9001 : 2000 company 94-101, Electronic Complex Pardesipura, Indore- 452010, India Tel : 91-731- 2570301/02, 4211100 Fax: 91-731-
More informationFeatures. Applications
LM555 Timer General Description The LM555 is a highly stable device for generating accurate time delays or oscillation. Additional terminals are provided for triggering or resetting if desired. In the
More informationDESIGN AND IMPLMENTATION OF INTELLIGENT MOBILE PHONE DETECTOR
DESIGN AND IMPLMENTATION OF INTELLIGENT MOBILE PHONE DETECTOR Christian C. Mbaocha Department of Electrical/Electronic Engineering, Federal University of Technology, NIGERIA. christian_ij@yahoo.com ABSTRACT
More informationICL8038. Features. Precision Waveform Generator/Voltage Controlled Oscillator. Ordering Information. Pinout. Functional Diagram
Semiconductor IL0 September 99 File Number 4. Precision Waveform Generator/Voltage ontrolled Oscillator The IL0 waveform generator is a monolithic integrated circuit capable of producing high accuracy
More informationLab 3 Rectifier Circuits
ECET 242 Electronic Circuits Lab 3 Rectifier Circuits Page 1 of 5 Name: Objective: Students successfully completing this lab exercise will accomplish the following objectives: 1. Learn how to construct
More informationPOWER SUPPLY MODEL XP-15. Instruction Manual ELENCO
POWER SUPPLY MODEL XP-15 Instruction Manual ELENCO Copyright 2013 by Elenco Electronics, Inc. REV-A 753020 All rights reserved. No part of this book shall be reproduced by any means; electronic, photocopying,
More informationAnalog & Digital Electronics Course No: PH-218
Analog & Digital Electronics Course No: PH-18 Lec 3: Rectifier and Clipper circuits Course nstructors: Dr. A. P. VAJPEY Department of Physics, ndian nstitute of Technology Guwahati, ndia 1 Rectifier Circuits:
More informationCornerstone Electronics Technology and Robotics I Week 15 Voltage Comparators Tutorial
Cornerstone Electronics Technology and Robotics I Week 15 Voltage Comparators Tutorial Administration: o Prayer Robot Building for Beginners, Chapter 15, Voltage Comparators: o Review of Sandwich s Circuit:
More informationGermanium Diode AM Radio
Germanium Diode AM Radio LAB 3 3.1 Introduction In this laboratory exercise you will build a germanium diode based AM (Medium Wave) radio. Earliest radios used simple diode detector circuits. The diodes
More informationRC Circuits and The Oscilloscope Physics Lab X
Objective RC Circuits and The Oscilloscope Physics Lab X In this series of experiments, the time constant of an RC circuit will be measured experimentally and compared with the theoretical expression for
More informationCommon Base BJT Amplifier Common Collector BJT Amplifier
Common Base BJT Amplifier Common Collector BJT Amplifier Common Collector (Emitter Follower) Configuration Common Base Configuration Small Signal Analysis Design Example Amplifier Input and Output Impedances
More informationCommon Emitter BJT Amplifier Design Current Mirror Design
Common Emitter BJT Amplifier Design Current Mirror Design 1 Some Random Observations Conditions for stabilized voltage source biasing Emitter resistance, R E, is needed. Base voltage source will have finite
More informationOp Amp Circuit Collection
Op Amp Circuit Collection Note: National Semiconductor recommends replacing 2N2920 and 2N3728 matched pairs with LM394 in all application circuits. Section 1 Basic Circuits Inverting Amplifier Difference
More informationExperiment #11: LRC Circuit (Power Amplifier, Voltage Sensor)
Experiment #11: LRC Circuit (Power Amplifier, Voltage Sensor) Concept: circuits Time: 30 m SW Interface: 750 Windows file: RLC.SWS EQUIPMENT NEEDED Science Workshop Interface Power Amplifier (2) Voltage
More informationCHAPTER 11: Flip Flops
CHAPTER 11: Flip Flops In this chapter, you will be building the part of the circuit that controls the command sequencing. The required circuit must operate the counter and the memory chip. When the teach
More informationCONSTRUCTING A VARIABLE POWER SUPPLY UNIT
CONSTRUCTING A VARIABLE POWER SUPPLY UNIT Building a power supply is a good way to put into practice many of the ideas we have been studying about electrical power so far. Most often, power supplies are
More informationA CW QRP Transceiver for 20 m band. How it works I'll describe individually the three boards and the relative tuning devices.
A CW QRP Transceiver for 20 m band The little QRP presented in this article may be built in a gradual manner, in fact it is divided in two main modules (plus VFO), you may also complete only a single part
More informationPrinciples and Applications of Analogue Electronics
Unit 57: Principles and Applications of Analogue Electronics Unit code: QCF Level 3: Credit value: 10 Guided learning hours: 60 Aim and purpose K/600/6744 BTEC Nationals This unit will provide learners
More informationLock - in Amplifier and Applications
Lock - in Amplifier and Applications What is a Lock in Amplifier? In a nut shell, what a lock-in amplifier does is measure the amplitude V o of a sinusoidal voltage, V in (t) = V o cos(ω o t) where ω o
More informationLABORATORY MANUAL DEPARTMENT OF ELECTRICAL & COMPUTER ENGINEERING
LABORATORY MANUAL DEPARTMENT OF ELECTRICAL & COMPUTER ENGINEERING UNIVERSITY OF CENTRAL FLORIDA EEL 4309 Electronics II Revised January 2012 Table of Contents Safety: Introduction: Experiment #1: Experiment
More information= V peak 2 = 0.707V peak
BASIC ELECTRONICS - RECTIFICATION AND FILTERING PURPOSE Suppose that you wanted to build a simple DC electronic power supply, which operated off of an AC input (e.g., something you might plug into a standard
More informationFundamentals of Power Electronics. Robert W. Erickson University of Colorado, Boulder
Robert W. Erickson University of Colorado, Boulder 1 1.1. Introduction to power processing 1.2. Some applications of power electronics 1.3. Elements of power electronics Summary of the course 2 1.1 Introduction
More informationAC 2012-3923: MEASUREMENT OF OP-AMP PARAMETERS USING VEC- TOR SIGNAL ANALYZERS IN UNDERGRADUATE LINEAR CIRCUITS LABORATORY
AC 212-3923: MEASUREMENT OF OP-AMP PARAMETERS USING VEC- TOR SIGNAL ANALYZERS IN UNDERGRADUATE LINEAR CIRCUITS LABORATORY Dr. Tooran Emami, U.S. Coast Guard Academy Tooran Emami received her M.S. and Ph.D.
More informationOBJECTIVE QUESTIONS IN ANALOG ELECTRONICS
1. The early effect in a bipolar junction transistor is caused by (a) fast turn-on (c) large collector-base reverse bias (b)fast turn-off (d) large emitter-base forward bias 2. MOSFET can be used as a
More informationExperiment 2 Diode Applications: Rectifiers
ECE 3550 - Practicum Fall 2007 Experiment 2 Diode Applications: Rectifiers Objectives 1. To investigate the characteristics of half-wave and full-wave rectifier circuits. 2. To recognize the usefulness
More informationModulation and Demodulation
16 Modulation and Demodulation 16.1 Radio Broadcasting, Transmission and Reception 16. Modulation 16.3 Types of Modulation 16.4 Amplitude Modulation 16.5 Modulation Factor 16.6 Analysis of Amplitude Modulated
More information1. Oscilloscope is basically a graph-displaying device-it draws a graph of an electrical signal.
CHAPTER 3: OSCILLOSCOPE AND SIGNAL GENERATOR 3.1 Introduction to oscilloscope 1. Oscilloscope is basically a graph-displaying device-it draws a graph of an electrical signal. 2. The graph show signal change
More informationRLC Series Resonance
RLC Series Resonance 11EM Object: The purpose of this laboratory activity is to study resonance in a resistor-inductor-capacitor (RLC) circuit by examining the current through the circuit as a function
More informationHow To Use Multiisim On A Computer Or A Circuit Design Suite 10.0 (Aero)
MULTISIM TUTORIAL Start Click on Start All Programs National Instruments Circuit Design Suite 10.0 Multisim. Component Toolbar Ammeter/ Voltmeter Toolbar Virtual Component Toolbar Simulation Toolbar Instrument
More informationLab 1: The Digital Oscilloscope
PHYSICS 220 Physical Electronics Lab 1: The Digital Oscilloscope Object: To become familiar with the oscilloscope, a ubiquitous instrument for observing and measuring electronic signals. Apparatus: Tektronix
More informationOrCAD Capture with PSpice and Allegro DE CIS with AMS Simulator. Describes how to create a PSpice Archive File with Capture
Title: Product: Summary: Creating a Project Archive OrCAD Capture with PSpice and Allegro DE CIS with AMS Simulator Describes how to create a PSpice Archive File with Capture Author/Date: Wei Ling / 03.08.2009
More informationProperties of electrical signals
DC Voltage Component (Average voltage) Properties of electrical signals v(t) = V DC + v ac (t) V DC is the voltage value displayed on a DC voltmeter Triangular waveform DC component Half-wave rectifier
More informationOPERATIONAL AMPLIFIER
MODULE3 OPERATIONAL AMPLIFIER Contents 1. INTRODUCTION... 3 2. Operational Amplifier Block Diagram... 3 3. Operational Amplifier Characteristics... 3 4. Operational Amplifier Package... 4 4.1 Op Amp Pins
More informationAMZ-FX Guitar effects. (2007) Mosfet Body Diodes. http://www.muzique.com/news/mosfet-body-diodes/. Accessed 22/12/09.
Pulse width modulation Pulse width modulation is a pulsed DC square wave, commonly used to control the on-off switching of a silicon controlled rectifier via the gate. There are many types of SCR s, most
More information13. Diode Rectifiers, Filters, and Power Supplies
1 13. Diode Rectifiers, Filters, and Power Supplies Introduction A power supply takes Alternating Current or A.C. power from your electric utility (Con Edison) and converts the A.C. electrical current
More informationDIGITAL-TO-ANALOGUE AND ANALOGUE-TO-DIGITAL CONVERSION
DIGITAL-TO-ANALOGUE AND ANALOGUE-TO-DIGITAL CONVERSION Introduction The outputs from sensors and communications receivers are analogue signals that have continuously varying amplitudes. In many systems
More informationElectronics Technology
Teacher Assessment Blueprint Electronics Technology Test Code: 5907 / Version: 01 Copyright 2011 NOCTI. All Rights Reserved. General Assessment Information Blueprint Contents General Assessment Information
More informationOscillators. 2.0 RF Sine Wave Oscillators. www.learnabout-electronics.org. Module. RF Oscillators
Module 2 www.learnabout-electronics.org Oscillators 2.0 RF Sine Wave Oscillators What you ll Learn in Module 2 Section 2.0 High Frequency Sine Wave Oscillators. Frequency Control in RF Oscillators. LC
More informationANALOG VIOLIN AUDIO SYNTHESIZER
ANALOG VIOLIN AUDIO SYNTHESIZER by Senior Project ELECTRICAL ENGINEERING DEPARTMENT California Polytechnic State University San Luis Obispo 2014 TABLE OF CONTENTS Section Page List of Tables and Figures
More informationExperiment teaching of digital electronic technology using Multisim 12.0
World Transactions on Engineering and Technology Education Vol.12, No.1, 2014 2014 WIETE Experiment teaching of digital electronic technology using Multisim 12.0 Qiu-xia Liu Heze University Heze, Shandong,
More informationε: Voltage output of Signal Generator (also called the Source voltage or Applied
Experiment #10: LR & RC Circuits Frequency Response EQUIPMENT NEEDED Science Workshop Interface Power Amplifier (2) Voltage Sensor graph paper (optional) (3) Patch Cords Decade resistor, capacitor, and
More information